US2600221A - Cleansing method - Google Patents

Cleansing method Download PDF

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US2600221A
US2600221A US152503A US15250350A US2600221A US 2600221 A US2600221 A US 2600221A US 152503 A US152503 A US 152503A US 15250350 A US15250350 A US 15250350A US 2600221 A US2600221 A US 2600221A
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solution
rinsing
ultraviolet light
fluorochrome
contamination
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Domingo Emil
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N21/00Investigating or analysing materials by the use of optical means, i.e. using sub-millimetre waves, infrared, visible or ultraviolet light
    • G01N21/62Systems in which the material investigated is excited whereby it emits light or causes a change in wavelength of the incident light
    • G01N21/63Systems in which the material investigated is excited whereby it emits light or causes a change in wavelength of the incident light optically excited
    • G01N21/64Fluorescence; Phosphorescence
    • G01N21/6428Measuring fluorescence of fluorescent products of reactions or of fluorochrome labelled reactive substances, e.g. measuring quenching effects, using measuring "optrodes"

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  • This invention relatesto ameth'cdcf cleansing articles, and tothe' detection of soilin'the form of organic or "inorganidmatter' adhering to "the surface on inadequately cleansed articles; More particularly, the invention “relates to "a'method of detecting organic'contaihlnationion food utensils' by coating "the surface bf's'aid utensilsvv ith a chemical solution whichfh'aus'es theco'ntaminatingmatter to -"fi'u'c'iresce characteristically under the influence of "an "appropriate light band, "such as ultraviolet light.
  • an obj ect of the invent'ron to provide a general method of utensilinspection applicable to' virtually all of the foodi'residues', whether'pr not of ole-aginous, phosphatidic; 'starchy; protein, or inorga'nic-protein complex,' char'acter.
  • 'Another object bf the invention is to provide a utensil inspection procedure"that can" be'applied with portable equipment.
  • a still further object is to provide a rapid and simple method for detecting residuespfdetergents and germicides, such as quaternary ammonium compounds left on J improperlrrinsed utensils.
  • a dilute' solution of a" fiuorochrome, such'as 'fluorescentdye,'or a mixture ofseveral of'them is prepared in the propersolvent; such aswater, water and alcohol, 'orwaterwith alkaline or acid salts.
  • a fiuorochrome material may vary'wi'dely; 'but in general only a few parts per'milliorr'will be sufiicient, and an excess, while giving "the'desired fluorescent effect, may also stain the clean surface of the utensil.
  • 50 to 500 parts'of such fluoro- 'chromes as primuline or fluorescent 'purple 2G permillion parts of water will be found satisfactory.
  • the object to be examined is'small, 'such'as a. glass-plate, or fork, it may be'immersediin the solution.
  • the solution may be applied to its-surface by means of a sprayer or other similar device. "This application of the fiuoro chrome solution may be effected after the ordinary washing process, with a subsequent rinsing bf the solution, orit may be applied prior to the regular washing operation. In'the latter case the usual washing and rinsing operations remove the excess of the activating solution.
  • the object is treated as described above, it is exposed to ultraviolet light, preferably in-a dimly lighted room. If the article is contaminated with adhering organic matter-it will be found that the fiuorochrome has-been adsorbed on, and/or chemically combined with, the organic matter in such a way that it will resist the effect of the subsequent rinsing, when the excess of uncombined material will wash off;
  • the organic matter with the combined fluorochrome will fluoresce with a distinct color differing from the color of the solution itself or the dry remants of the solution that may have been left on a perfectly clean surface. example, appears light yellow in daylight but fluoresces with a strong purplish blue under the ultraviolet light. However, when it is adsorbed on, or chemically combined with, organic matter adhering to the surface of an article, it appears bright yellowish green or greenish blue in color, the hue depending on the composition and age of the residues.
  • the fluorescent color under the ultraviolet light is bright whitish blue, but if the milk is stale, the color is less intense yellow; and the complex inorganic-protein residues from milk commonly known as milkstone will show up with a characteristic yellowish color.
  • This contrast may be accentuated by rinsing the treated utensil so as to remove the unreacted fluorochrome from the clean areas.
  • the contrast may be still further accentuated by the use of a suitable filter before the eyes when making the examination.
  • This filter may be a sheet of plastic or glass of the proper color characteristic held in front of the eyes, or the glass or plastic may be fitted to the usual spectacle frame. In general a yellow, orange, amber, green, or yellowgreen filter will be found to give good contrasty results. The selection of the filter color depends upon the fluorochrome used, the specific type of soil to be detected on the treated articles, and
  • An additional advantage of using a viewing filter is that it absorbs the ultraviolet light and shields the eyes from the annoyance of the fluorescence of some of the interior parts of the eye itself when exposed to ultraviolet light, and also eliminates the visible blue and purple light from the ultraviolet source.
  • the ultraviolet light may be obtained from a suitable light source with an intervening filter, such as that commonly known as Woods glass, which cuts ofi most of the visible light as is well known to those skilled in the art.
  • a suitable light source with an intervening filter, such as that commonly known as Woods glass, which cuts ofi most of the visible light as is well known to those skilled in the art.
  • Virtually any of the ultraviolet lamps commercially available are suitable for use in the method of this invention, as for example, the mercury vapor lamp, cadmium, argon. or carbon arc lamps.
  • the examination is performed preferably while the article is still wet, just after the last rinsing, but with some fluorochromes the examination may be made after the utensil is dry.
  • fluorochromes such as steroids, will exhibit the same strong fluorescence after several months, and even years.
  • An advantage of the invention is its general applicability to various types of commercial utensils, whether ceramic, glass, metal, or plastic. While some of these materials may be found to be naturally fluorescent, no case has been found in which the fluorescent color of the utensil ma- A weak solution of primuline for.
  • Another advantage of this invention is its adaptability to the continuous inspection of articles washed in mechanical washing machines with multiple jets and tanks, such as those used for washing dishes in restaurants, and those used for washing milk shipping cans, in which the utensils are treated successively with washing solution in one position of the machine and with rinsing solution in another position, followed by a clear water rinse in still another position along the path of travel of the utensil.
  • the fluorochrome solution may be applied in one of the intermediate tanks, either by spraying it on the utensil separately, or by addition to the washing or rinsing solution. The ordinary rinsing steps which complete the washing operation will remove the excess of applied material.
  • any other light-sensitive receptor such as a photo-electric cell means
  • Such light-sensitive means may also include means which will signal the condition of the articles, or perform some function such as to set aside unclean articles as they pass by the receptor.
  • fluorochrome is used it is meant to include a chemical substance that, while not being a dye as commonly described in the literature, by virture of its composition or dilution will react with other substances to cause the resultant product to fluoresce under ultraviolet light. This reaction may be chemical, physico chemical, or
  • fluorescent dye an ordinary dyethat willcaus'eth'e substanceor'material it is adsorbed on, orabsorbed by, to exhibit'fluorescence under ultraviolet light.
  • fiuorochrome is also intended-to cover fluorescent dyes. The phenomenon of fluorescence is not further described as it is well known to those familiar with the literature on the subject.
  • the invention provides a ready means for inspecting and testing food utensils with portable equipment thereby eliminating the necessity of taking specimens of the utensils to a central testing laboratory.
  • the method of examining a surface for visually undetectable organic contamination includes the steps of treating the surface with an excess of chemical solution that is selectively sorbed by the organic contamination and rinsing the surface to remove the excess solution not sorbed to cause said contamination to become visually evident and distinct frorn portions of the surface not so' contaminated-- when exposed toan appropriate light band;
  • the method of examining a non-absorbent food utensil for contamination by organic materials which are normally invisible by contrast with the surface of said utensil that includes the steps of coating the appropriate surface of said utensil with a fluorescent dye which is a member of the group of thiazole dyes to react with said contamination, rinsing said surface, and exposing the surface thus treated to essentially ultraviolet light, whereby any organic contamination on said surface will be caused to fluoresce in accordance with its deterioration in a manner characteristic of said reaction and different from the uncontaminated surface.
  • the method of examining a non-absorbent food utensil for contamination by organic materials which are normally invisible by contrast with the surface of said utensil that includes the steps of coating the appropriate surface of said utensil with a fluorochrome chemical which is a derivative of stilbene to react with said contamination, rinsing said surface, and exposing the surface thus treated to essentially ultraviolet light, whereby any organic contamination on said surface will be caused to fiuoresce in accordance with its deterioration in a manner characteristic of said reaction and different from the uncontaminated surface.
  • the method of detecting milk residues on a surface which comprises the steps of coating the surface with a weak aqueous solution of primuline, rinsing the surface with water and exposing the surface to ultraviolet light.
  • the method of cleansing articles which have been subjected to contact with milk including the steps of applying a fiuorochrome solution to the surface of the article in connection with a rinsing operation, performing another rinsing operation on the article sufiicient to remove excess fluorochrome solution, and exposing the surface of the article to ultraviolet light to detect milk film on the surface thereof.
  • the method of cleansing articles used for handling food in which the articles are subjected to a washing and a rinsing operation including the steps of incorporating a fluorochrome solution inthe washing solution, and
  • the method of cleansing articles used for handling food in which the articles are subjected to a washing and a rinsing operation including the steps of incorporating a fiuorochrome solution in said rinsing solution, performing another rinsing operation on the article with clear water, and exposing the surface of the article to ultraviolet light to detect organic contamination.
  • the method of cleansing articles used for handling food in which the articles are subjected to a washing and a clear water rinsing operation including the steps of applying a fluorochrome solution to the surface of the article before performing said washing operation, and exposing said article to ultraviolet light after said rinsing operation is performed to detect the presence of organic contamination.
  • the method of detecting thin films of quaternary ammonium compounds adsorbed on the surface of v an article which includes the steps of coating the surface of said article with a dilute solution of a fiuorochrome chemical which is a member of the thiazole group adapted v to make said film fluorescent, rinsing the excess of said solution from the surface with water.

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  • Health & Medical Sciences (AREA)
  • Immunology (AREA)
  • Chemical & Material Sciences (AREA)
  • Physics & Mathematics (AREA)
  • Nuclear Medicine, Radiotherapy & Molecular Imaging (AREA)
  • Optics & Photonics (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Analytical Chemistry (AREA)
  • Biochemistry (AREA)
  • General Health & Medical Sciences (AREA)
  • General Physics & Mathematics (AREA)
  • Pathology (AREA)
  • Investigating Materials By The Use Of Optical Means Adapted For Particular Applications (AREA)
  • Investigating, Analyzing Materials By Fluorescence Or Luminescence (AREA)

Description

Patented June 10, 1952 No-Draw-ing. --Application; March 28, 1-950, Serial No. 152,503
16 Gl-aims.
.1 This invention relatesto ameth'cdcf cleansing articles, and tothe' detection of soilin'the form of organic or "inorganidmatter' adhering to "the surface on inadequately cleansed articles; More particularly, the invention "relates to "a'method of detecting organic'contaihlnationion food utensils' by coating "the surface bf's'aid utensilsvv ith a chemical solution whichfh'aus'es theco'ntaminatingmatter to -"fi'u'c'iresce characteristically under the influence of "an "appropriate light band, "such as ultraviolet light.
It is an object'bf 'theunvention 'topifdvide means for" the detection of organic "contamination 'on food utensils or'cther articleswithspeed ly a sample portion of them.
It is also, an obj ect of the invent'ron "to provide a general method of utensilinspection applicable to' virtually all of the foodi'residues', whether'pr not of ole-aginous, phosphatidic; 'starchy; protein, or inorga'nic-protein complex,' char'acter.
'Another object bf the invention is to provide a utensil inspection procedure"that can" be'applied with portable equipment.
A still further object is to provide a rapid and simple method for detecting residuespfdetergents and germicides, such as quaternary ammonium compounds left on J improperlrrinsed utensils.
.Additional objects of the invention'will' be apparent from 'the' discussion hereinafter.
W In many- States and cities "there is astatutory provision for the maintenance of"'c'ertain" hygienic standards in connectiomwith public food utensils such as, reusable milkbottles, milk cans, milk tanks, cooking pans, service plates (ceramic and plastic) glasses,'si1verware, and thanks. The manual or automatic methods for washingthese utensils in some establishments is occasionally insufficient for complete cleansing as demon-- strated byv bacteriological and other tests made on sample specimens 'when'brou'ght' to .the central .city or State testing-laboratory. ""Prior"to the present invention such tests have be'en'involved, expensive, and time consuming. "By means of this invention, organic contamination residues from common foods and-Ithecomplex inorganic-protein residues from milk products remaining on *the'surface ofsuch utensils may be -detected quickly and surely, even by relatively unskilled workers.
Part of these residues remain on the-surface of the utensils in the form of'minute. discrete particles'which are too small-to-be readily 'seen with the'naked -eye,-or-in the form of thin films which are not visible under ordinarylight such as is commonly used incommercial inspection.
"Such particles "and films, after being treated with a fluorochrome'material, such "as a fiuo'rescentdye, become easily visible-by the--bright fluorescent light they emit under the influence of 'ultravioletlight radiations. The fluorescence obtained in suchcases'is" of a character and intensity as" tobe" easily recognized.
"The following -example illustrates without limiting 'the' invention.
A dilute' solution of a" fiuorochrome, such'as 'fluorescentdye,'or a mixture ofseveral of'them is prepared in the propersolvent; such aswater, water and alcohol, 'orwaterwith alkaline or acid salts. 'Theconcentrati'onof the fluorochrome material may vary'wi'dely; 'but in general only a few parts per'milliorr'will be sufiicient, and an excess, while giving "the'desired fluorescent effect, may also stain the clean surface of the utensil. For general purposes 50 to 500 parts'of such fluoro- 'chromes as primuline or fluorescent 'purple 2G permillion parts of water will be found satisfactory. It is to be understood'th'at the complete solution of the' fluorochrome is to be'made with theaddition of such other chemicals as is well known to those skilled in'the art, and that the solution is to be used at 'the'proper pH, as'is well known in the literature pertaining to'this subject.
If the object to be examined is'small, 'such'as a. glass-plate, or fork, it may be'immersediin the solution. If the object is large, such :as a milk can or tank, the solution may be applied to its-surface by means of a sprayer or other similar device. "This application of the fiuoro chrome solution may be effected after the ordinary washing process, with a subsequent rinsing bf the solution, orit may be applied prior to the regular washing operation. In'the latter case the usual washing and rinsing operations remove the excess of the activating solution.
Afterthe object is treated as described above, it is exposed to ultraviolet light, preferably in-a dimly lighted room. If the article is contaminated with adhering organic matter-it will be found that the fiuorochrome has-been adsorbed on, and/or chemically combined with, the organic matter in such a way that it will resist the effect of the subsequent rinsing, when the excess of uncombined material will wash off;
Therefore, when the surface so treated is irradiated with ultraviolet light the organic matter with the combined fluorochrome will fluoresce with a distinct color differing from the color of the solution itself or the dry remants of the solution that may have been left on a perfectly clean surface. example, appears light yellow in daylight but fluoresces with a strong purplish blue under the ultraviolet light. However, when it is adsorbed on, or chemically combined with, organic matter adhering to the surface of an article, it appears bright yellowish green or greenish blue in color, the hue depending on the composition and age of the residues. If it is a streak of fresh milk the fluorescent color under the ultraviolet light is bright whitish blue, but if the milk is stale, the color is less intense yellow; and the complex inorganic-protein residues from milk commonly known as milkstone will show up with a characteristic yellowish color.
In any event there is a marked visible contrast between the clean and the contaminated areas. This contrast may be accentuated by rinsing the treated utensil so as to remove the unreacted fluorochrome from the clean areas. The contrast may be still further accentuated by the use of a suitable filter before the eyes when making the examination. This filter may be a sheet of plastic or glass of the proper color characteristic held in front of the eyes, or the glass or plastic may be fitted to the usual spectacle frame. In general a yellow, orange, amber, green, or yellowgreen filter will be found to give good contrasty results. The selection of the filter color depends upon the fluorochrome used, the specific type of soil to be detected on the treated articles, and
the visual characteristics of the individual observer. An additional advantage of using a viewing filter is that it absorbs the ultraviolet light and shields the eyes from the annoyance of the fluorescence of some of the interior parts of the eye itself when exposed to ultraviolet light, and also eliminates the visible blue and purple light from the ultraviolet source.
The ultraviolet light may be obtained from a suitable light source with an intervening filter, such as that commonly known as Woods glass, which cuts ofi most of the visible light as is well known to those skilled in the art. Virtually any of the ultraviolet lamps commercially available are suitable for use in the method of this invention, as for example, the mercury vapor lamp, cadmium, argon. or carbon arc lamps. For the purpose of this method I prefer to use a light band with the maximum transmission at about 3600 Angstrom units and with as little visible light as possible.
For the purpose of inspection the examination is performed preferably while the article is still wet, just after the last rinsing, but with some fluorochromes the examination may be made after the utensil is dry. Some articles treated with fluorochromes, such as primuline, will exhibit the same strong fluorescence after several months, and even years.
An advantage of the invention is its general applicability to various types of commercial utensils, whether ceramic, glass, metal, or plastic. While some of these materials may be found to be naturally fluorescent, no case has been found in which the fluorescent color of the utensil ma- A weak solution of primuline for.
terial is the same as that of the organic matter residues on its surface. Also, while it is known that, some food soil residues, such as oleaginous films or milk remnants may be naturally fluorescent under ultraviolet light, not all such residues from food will show similar fluorescence, this characteristic depending upon the chemical composition of the solid residues and the state of oxidation of the several components, such as the fats and oils or other constituents.
It is true that by the simple examination of an article under ultraviolet light, without treatment with a fluorochrome, some of the food soil residues may fiuoresce more or less strongly, but others will not show any fluorescence at all. However, with the addition of the fluorochrome chemical all of the organic matter will be brought out by the strong fluorescence of the combination, which would not ordinarily be the case without this addition. It is easy to see that while it may be possible to detect some uncleanliness in utensils without the addition of fluorochrome materials, the only assurance of having a perfectly clean utensil comes from the addition of such material.
Another advantage of this invention is its adaptability to the continuous inspection of articles washed in mechanical washing machines with multiple jets and tanks, such as those used for washing dishes in restaurants, and those used for washing milk shipping cans, in which the utensils are treated successively with washing solution in one position of the machine and with rinsing solution in another position, followed by a clear water rinse in still another position along the path of travel of the utensil. With machines of this type the fluorochrome solution may be applied in one of the intermediate tanks, either by spraying it on the utensil separately, or by addition to the washing or rinsing solution. The ordinary rinsing steps which complete the washing operation will remove the excess of applied material. In this method all of the utensils can be inspected as they leave the machine without any interference with the normal operation of the machine, or with the usual operational procedure, the only modification being the installation of an ultraviolet lamp at some point convenient to the discharge end of the machine. If the machine is of the type having a single tank such as is commonly used for dishwashing in restaurants, it is preferable to treat the dishes before washing by immersing them in a tank of the treatment solution, after which they may be put through the washing machine in the usual way, the examination of the dishes being made in the manner already described.
While the procedures already described are intended to be carried out by observing the emitted fluorescence of the treated material with the human eye, it is also within the scope of the invention to provide any other light-sensitive receptor, such as a photo-electric cell means, to observe the condition of the articles under examination. Such light-sensitive means may also include means which will signal the condition of the articles, or perform some function such as to set aside unclean articles as they pass by the receptor.
Wherever, in the specification and in the claims, the word fluorochrome is used it is meant to include a chemical substance that, while not being a dye as commonly described in the literature, by virture of its composition or dilution will react with other substances to cause the resultant product to fluoresce under ultraviolet light. This reaction may be chemical, physico chemical, or
simply physical.- These substances-may, or may not have'a' visible color under ordinarylight, suchas weaksolutions of beta methyl "urn'beliferbne, R-s'alt, primulina-land the variousderivatives-of stilben'edi-" or tri-sulphonic acid. By fluorescent dye' is meant an ordinary dyethat willcaus'eth'e substanceor'material it is adsorbed on, orabsorbed by, to exhibit'fluorescence under ultraviolet light.- The word fiuorochrome is also intended-to cover fluorescent dyes. The phenomenon of fluorescence is not further described as it is well known to those familiar with the literature on the subject.
For the purpose of this methoda large number of fluorochromes can be. used, among which may be mentioned the following materials which are listed inthe Colour Index, a publication of the British Society of Dyers and Colourists. The numbers" following the initials C. I. referto-th'e identification in the Index.
I. 127 geranin G I. 365 direct brilliant yellow- 371 acrifiavin 622 diazine fast yellow 654 diazo fast yellow 2G 655 auramin O or 00 749 rhodamineB 793 phosphine GN 812 primuline 813 titan yellow 816 thioflavine S The following materials are representative of those which have no Colour Index reference number because they are either too newly developed, not well defined, or not classed as dyestuffs:
esculin eosine R-salt acridines berberine anthracene berberine sulphate sulpho rhodamine derivatives of stilbene beta methyl umbeliferone acetate fluorescent blue I calcomine fluorescent violet 2G euchrysine quinine sulphate tinopal BVA chrysorubine phosphine 2RN thioflavine TG It will thus be seen that the invention provides a ready means for inspecting and testing food utensils with portable equipment thereby eliminating the necessity of taking specimens of the utensils to a central testing laboratory.
It is to be understood that this invention is not limited to the embodiments disclosed, which are given by way of example, but that this invention may be modified and varied by those skilled in the art. The invention is to be construed broadly and limited only by the annexed claims.
I claim:
1. The method of examining a surface for visually undetectable organic contamination that includes the steps of treating the surface with an excess of chemical solution that is selectively sorbed by the organic contamination and rinsing the surface to remove the excess solution not sorbed to cause said contamination to become visually evident and distinct frorn portions of the surface not so' contaminated-- when exposed toan appropriate light band;
2; The method of examininga food'utensil" for visually undetectable organic contamination tamination alone; whereby the extent and character' of said contamination will be emphasized. 3; The method-according to-claim 2 in which the light-band is essentially ultraviolet.
4. -The'-met-hod according to claim 3 in which the fiuorochrome chemical is'applied in; dilute aqueous solution;
5. The method according to claim 4' in whiclr the utensil is rinsed in water following the application offiuorochrome chemical.
6. The method according to claim 5 in which- -light from the'ultraviolet light excited surface" ispassed through a contrasting filter and there after transmitted to a light sensitive receptm means.
7. The method according to claim 6 in which the fluorochrome chemical is primuline.
8. The method of examining a non-absorbent food utensil for contamination by organic materials which are normally invisible by contrast with the surface of said utensil that includes the steps of coating the appropriate surface of said utensil with a fluorescent dye which is a member of the group of thiazole dyes to react with said contamination, rinsing said surface, and exposing the surface thus treated to essentially ultraviolet light, whereby any organic contamination on said surface will be caused to fluoresce in accordance with its deterioration in a manner characteristic of said reaction and different from the uncontaminated surface.
9. The method of examining a non-absorbent food utensil for contamination by organic materials which are normally invisible by contrast with the surface of said utensil that includes the steps of coating the appropriate surface of said utensil with a fluorochrome chemical which is a derivative of stilbene to react with said contamination, rinsing said surface, and exposing the surface thus treated to essentially ultraviolet light, whereby any organic contamination on said surface will be caused to fiuoresce in accordance with its deterioration in a manner characteristic of said reaction and different from the uncontaminated surface.
10. The method of detecting milk residues on a surface which comprises the steps of coating the surface with a weak aqueous solution of primuline, rinsing the surface with water and exposing the surface to ultraviolet light.
11. The method of cleansing articles which have been subjected to contact with milk including the steps of applying a fiuorochrome solution to the surface of the article in connection with a rinsing operation, performing another rinsing operation on the article sufiicient to remove excess fluorochrome solution, and exposing the surface of the article to ultraviolet light to detect milk film on the surface thereof.
12. The method of cleansing articles used for handling food in which the articles are subjected to a washing and a rinsing operation including the steps of incorporating a fluorochrome solution inthe washing solution, and
exposing the surface of the article to ultraviolet light after said rinsing operation to detect organic contamination.
18. The method of cleansing articles used for handling food in which the articles are subjected to a washing and a rinsing operation including the steps of incorporating a fiuorochrome solution in said rinsing solution, performing another rinsing operation on the article with clear water, and exposing the surface of the article to ultraviolet light to detect organic contamination.
14. The method of cleansing articles used for handling food in which the articles are subjected to a washing and a clear water rinsing operation including the steps of applying a fluorochrome solution to the surface of the article before performing said washing operation, and exposing said article to ultraviolet light after said rinsing operation is performed to detect the presence of organic contamination.
15. The method of detecting thin films of quaternary ammonium compounds adsorbed on the surface of v an article which includes the steps of coating the surface of said article with a dilute solution of a fiuorochrome chemical which is a member of the thiazole group adapted v to make said film fluorescent, rinsing the excess of said solution from the surface with water.
exposing said treated surface to ultraviolet light, and observing said surface through a contrasting filter whereby an adsorbed film of material will be recognized by the character of its fluorescence. 16. The method according to claim 15 in which the fluorochrome chemical is primuline.
EMIL DOMINGO.
REFERENCES CITED The following references are of record in the file of this patent:
UNITED STATES PATENTS Number Name Date,
2,046,940 Fitger et a1. July 7, 1936 2,449,274 Broll Sept. 14, 1948 OTHER REFERENCES Fluorescent Penetrant by G, Ellis, Steel October 16, 1944. Des. 100-102 and 164.
Luminescence by P. Pringsheim, et a1. Intersciences, Publishers Inc., 1943, pgs. 116-119.

Claims (1)

1. THE METHOD OF EXAMINING A SURFACE FOR VISUALLY UNDETECTABLE ORGANIC CONTAMINATION THAT INCLUDES THE STEPS OF TREATING THE SURFACE WITH AN EXCESS OF CHEMICAL SOLUTION THAT IS SELECTIVELY SORBED BY THE ORGANIC CONTAMINATION AND RINSING THE SURFACE TO REMOVE THE EXCESS SOLUTION NOT SORBED TO CAUSE SAID CONTAMINATION TO BECOME VISUALLY EVIDENT AND DISTINCT FROM PORTIONS OF THE SURFACE NOT SO CONTAMINATED WHEN EXPOSED TO AN APPROPRIATE LIGHT BAND.
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Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2776213A (en) * 1951-02-23 1957-01-01 Edward M Borg Method for canning evaporated and fresh milk
US3096775A (en) * 1959-09-30 1963-07-09 Mealpack Corp Cart washing apparatus
US4738780A (en) * 1984-11-27 1988-04-19 Union Carbide Corporation Method for replacing PCB-containing coolants in electrical induction apparatus with substantially PCB-free dielectric coolants
US4744905A (en) * 1984-11-27 1988-05-17 Union Carbide Corporation Method for replacing PCB containing coolants in electrical induction apparatus with substantially PCB-free dielectric coolants
US5225675A (en) * 1992-01-22 1993-07-06 Inco Alloys International, Inc. Method of monitoring removal of metal treatment solutions
US6476385B1 (en) * 1999-03-22 2002-11-05 Peter M. Albert Cleaning management kit and method of use
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US2776213A (en) * 1951-02-23 1957-01-01 Edward M Borg Method for canning evaporated and fresh milk
US3096775A (en) * 1959-09-30 1963-07-09 Mealpack Corp Cart washing apparatus
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US4744905A (en) * 1984-11-27 1988-05-17 Union Carbide Corporation Method for replacing PCB containing coolants in electrical induction apparatus with substantially PCB-free dielectric coolants
US5225675A (en) * 1992-01-22 1993-07-06 Inco Alloys International, Inc. Method of monitoring removal of metal treatment solutions
US6476385B1 (en) * 1999-03-22 2002-11-05 Peter M. Albert Cleaning management kit and method of use
US7785109B2 (en) 2005-03-30 2010-08-31 Kleancheck Systems, Llc Monitoring cleaning of surfaces
US11078446B2 (en) * 2005-03-30 2021-08-03 Kleancheck Systems, Llc Monitoring cleaning of surfaces
US20090248499A1 (en) * 2005-03-30 2009-10-01 Carling Philip C Monitoring Cleaning of Surfaces
US20090261270A1 (en) * 2005-03-30 2009-10-22 Carling Philip C Monitoring Cleaning of Surfaces
US7718395B2 (en) * 2005-03-30 2010-05-18 Kleancheck Systems, Llc Monitoring cleaning of surfaces
US7780453B2 (en) 2005-03-30 2010-08-24 Kleancheck Systems, Llc Monitoring cleaning of surfaces
US20060223731A1 (en) * 2005-03-30 2006-10-05 Carling Philip C Monitoring cleaning of surfaces
US8084410B2 (en) 2005-03-30 2011-12-27 Kleancheck Systems, Llc Monitoring cleaning of surfaces
US8435933B2 (en) 2005-03-30 2013-05-07 Kleancheck Systems, Llc Monitoring cleaning of surfaces
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US9458417B2 (en) 2005-03-30 2016-10-04 Kleancheck Systems, Llc Monitoring cleaning of surfaces
US9624456B2 (en) 2005-03-30 2017-04-18 Kleancheck Systems, Llc Monitoring cleaning of surfaces
US20170232125A1 (en) * 2005-03-30 2017-08-17 Kleancheck Systems, Llc Monitoring Cleaning of Surfaces
US9354182B2 (en) 2013-02-26 2016-05-31 Steris Inc. Method for optical detection of bio-contaminants
US10048203B2 (en) 2013-02-26 2018-08-14 Steris Inc. Apparatus for optical detection of bio-contaminants
US10451552B2 (en) 2013-02-26 2019-10-22 Steris Inc. Apparatus for optical detection of bio-contaminants by comparing intensities of filtered light at two predetermined wavelengths
US10705020B2 (en) 2013-02-26 2020-07-07 Steris Inc. Method and apparatus for optical detection of bio-contaminants within a lumen
US10724954B2 (en) 2013-02-26 2020-07-28 Steris Inc. Apparatus for optical detection of bio-contaminants based upon measurement of saturation of light intensities at fluorescence wavelength relative to light intensities at a predetermined wavelength
US10036705B2 (en) 2013-02-26 2018-07-31 Steris Inc. Method for optical detection of bio-contaminants

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